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Fiber Testing Best Practices
Pocket Guide
Time and resources are constantly in demand for enterprises. With the consolidation of networks combined with server and network virtualization, data centers are becoming increasingly complex. Testing plays a key role in ensuring the fiber optic cables that make up the network are running efficiently. Controlling network loss is becoming an increasingly important task for network engineers as loss budgets get smaller and demands on networks increase and intrinsic to this is testing and inspection of fibers.
This Fiber Testing Best Practices pocket guide was designed by Fluke Networks to educate about important optical fiber handling best practices, including:
• Fiber inspection and cleaning• Loss-length fiber testing (Tier 1 certification)• Fiber plant characterization and troubleshooting
(Tier 2 certification)• Documentation
Whether you handle fiber on a regular basis or just occasionally, this pocket guide will serve as a useful tool to ensure you never miss a critical step during your fiber testing or troubleshooting.
Why are Fiber Testing Best Practices so important?To minimize costly installer or contractor callbacks, network technician troubleshooting time, and unnecessary network downtimes, fiber-handling best practices should alwaysbe followed.
Best Practice #1Fiber Inspection and Cleaning
When should you do it?Prior to any fiber connection
Why should you do it?Dirty end-faces are the #1 cause of fiber link failure, but are the easiest to prevent. Damaged end-faces, in the form of scratches, pits, cracks, or chips, can also bring a fiber network down, and are often the result of poor terminations or mated contamination.
What instruments should you use?• A Video Microscope, preferably, one that can certify to the industry
standard IEC 61300-3-35 for automated Pass/Fail acceptance testing of fiber end-faces
• Non-IPA fiber-optic solvent for effective, residual-free cleaning
• Lint-free, non-static wipes for end-face cleaning or swabs for port-cleaning
Inspection and Cleaning Procedure � Inspect the fiber end-face (or port) using a video microscope to identify contamination.
� If only dust needs to be removed, use a mechanical dry cleaner.
� If you see grease or oil from skin contact, use the following “wet” procedure:
� Dab the contaminated end-face with a solvent-dampened wipe (or swab).
� Swipe the fiber end-face perpendicularly one time against a dry wipe.
� Re-inspect the fiber end-face (or port) with the video microscope to ensure that all the debris has been removed.
� If contamination is still observed, repeat the cleaning process until all contamination is removed.
Fiber Optic Cleaning Kit
FI-500FiberInspector™
Micro
FI-7000FiberInspector™ Pro
Fluke Networks Fiber Inspection and Cleaning Solutions
Best Practice #2: Loss-LengthFiber Testing (Tier 1 Certification
When should you do it?After any fiber-link installation to ensure the job meets the fiber-loss budgets as specified by the cabling infrastructure standards.
Why should you do it?It is required by internationally recognized standards such as TIA-568-D, ISO/IEC-11801 and ISO/IEC 14673-3 to ensure a quality installation.
What instruments should you use?• Optical Loss Test Set (OLTS), (automated, measures a duplex fiber in
both directions - preferred) - or -
• Power Meter/Light Source (PMLS) Set and Visual Fault Locator (manual, measures a single fiber path)
Tier 1 Fiber Certification Procedure � Before testing, connect the stabilized source to the meter with a test reference cord (TRC), a patch cord with a known negligible loss.
� Set and record a reference power level from the source as the baseline for the subsequent power-loss measurement.
� Disconnect the TRC from the meter and connect a second TRC to the meter port. Connect the two TRCs together with a precision bulkhead adapter.
� Measure the loss to ensure your TRCs are good (≤ 0.15 dB for MM, ≤ 0.25 dB for SM) and save the test.
� Disconnect at the bulkhead adapter and connect to the link under test and measure the loss.
� An OLTS will display results as a “Pass” or “Fail” based on standards and the measured length. An PMLS will only measure the loss (limits and margins need to be calculated manually).
(Note: When using an PMLS (instead of OLTS such as the CertiFiber Pro), a visual fault locator, fiber length meter, and manual calculations are also required.)
CertiFiber® ProOptical Loss Test Set
(OLTS)
SimpliFiber Pro® (PMLS) & VisiFault™Visual Fault Locator
Encircled Flux Test Reference Cords
(required per standards)
Fluke Networks Loss-Length Fiber Testing (Tier 1 Certification) Solutions
Best Practice #3: Fiber PlantCharacterization & Troubleshooting (Tier 2 Certification)
When should you do it?After loss-length testing (Tier 1 certification) to document and verify that the cabling and connections are installed correctly or when troubleshooting a failure to quickly pinpoint its source.
Why should you do it?Fiber networks have very tight loss budgets and less room for error, so network owners and designers are setting not only overall loss budgets, but also loss budgets for individual splices and connectors. An Optical Time Domain Reflectometer (OTDR) is required to make these measurements.
What instrument should you use?OTDR with launch and tail fibers - test leads that overcome OTDR dead zone limitations to measure the loss and reflectance of the first and last connector in the link
Tier 2 Fiber Certification Procedure � Bi-directional OTDR testing is required to calculate the correct event loss values of the link-under-test and due to “directivity” that results from differences in diameter, backscatter, numerical aperture and index of refraction of the link and launch and tail fibers.
� Connect the OTDR to one end of the link using a launch fiber. Attach a tail fiber to the connector at the far-end.
� Configure or select the appropriate limits.
� Shoot a trace of the link. Disconnect the OTDR from the link, leaving launch and tail fibers in place. Connect the OTDR to the far-end tail fiber. Shoot a 2nd trace for giving results in the opposite direction.
(Note: OptiFiber Pro’s SmartLoop™ technology can perform bi-directional testing of fiber pairs without moving the tester to the far end.)
� Review the average loss of the two results for every individual occurrence in the link and review pass or fail results (OptiFiber Pro’s SmartLoop calculates these automatically). Results are best understood in EventMapTM format (below).
� Compare to the limits being tested against the loss budget to ensure that the components are within specified limits.
Fluke Networks Fiber Plant Characterization and Troubleshooting (Tier 2 Certification) Solutions
OptiFiber® Pro OTDR OptiFiber® Pro EventMap
Best Practice #4: Documentation
When should you do it?Always after you have completed a measurement you will want to save the results.
Why should you do it?Good record-keeping is a smart practice. It enforces installation accountability and integrity, helps to resolve disputes and facilitates more efficient troubleshooting.
What documentation software should you use?LinkWare™ Cable Test Management Software that lets you manage all the results from multiple testers using one PC application. It works with LinkWare Live, a service from Fluke Networks that allows you to upload results over Wi-Fi, track tester status and location, and set up tests from your PC or tablet.
Documentation Procedure � After each measurement save the results.
� Upon completion of the job or at any desired moment you can either upload the results from the tester via a direct connection to the PC or via LinkWare Live, a SaaS (Software as a Service) solution from FlukeNetworks.
� Once test results are downloaded into the LinkWare Cable Test Management Software you can generate professional reports in a common format (such as PDF).
LinkWare Report LinkWare Live SmartPhone Interface
Fluke Networks Documentation Solutions
Best Practice #5: Maintenance and Technical Support
When should you consider it?From the day you acquire a tester and on a yearly basis to ensure equipment stays in top shape.
Why should you worry about it?To ensure service and support is there when you need it, minimizing business downtime and ensuring a high return on your investment.
What kind maintenance and support agreement do you need?
One that is like insurance. A comprehensive support and maintenance program that covers all products and accessories as well as access to technical specialists 24/7.
Versiv Maintenance & Support Solutions
BenefitsStandard Warranty Gold Support
Live technical support with exclusive phone number FREE Annual Calibration andFactory Refresh
FREE Repair with “first on bench” turnaround service
Loaner Equipment Service* FREE Accessory Replacements** Member Only Promotions Tech Support Response Time < 24 Hours < 2 Hours
Support – Phone and EmailWorking
hours 24 x 7 x 365
Software and Firmware upgrades Online training video and Knowledge Base access
*Available in certain geographies **Applies to accessories in the original product purchase
Gold support provides similar benefits for other products – contact your Fluke Networks representative for details.
Inspection & Cleaning MPO Testing Plant Characterization & Troubleshooting
(Tier 2 Certification)
FI-500FiberInspector™
Mini FiberInspection Scope
FI-7000 FiberInspetor™ Pro Video Microscope
Fiber Optic Cleaning Kits
SimpliFiber Pro Power Meter & Fiber Test Kits
CertiFiber Pro Optical Loss
Test Set
MultiFiber Pro
MPO TesterVisiFault VisualFault Locator
Fiber OneShot™ PRO and Fiber QuickMap™
OptiFiber ProOTDR
Check end-face contamination or damage
End-face inspection grading
Port Illumination
Auto-focus
Clean contamination
Check connectivity
Check polarity Verify loss over entire link to ensure loss budget not exceeded
Dual-fiber loss testing Singlemode Tier 1 certification
Multimode Encircled Flux Compliant Tier 1 Certification
with EF TRC’s EF compliant at the bulkhead
Locate faults
Tier 2 certification
Pass/fail results
Document test results
Fiber types supportedMultimode
SinglemodeMultimode
Singlemode, MPOMultimode
Singlemode, MPOMultimode
SinglemodeMultimode
Singlemode
MPO(Multimode & Singlemode)
Multimode Singlemode
Multimode Singlemode
MultimodeSinglemode
Source type LED, FP Laser LED, FP Laser LED, FP Laser Laser Laser LED, FP Laser
Fluke Networks Fiber Test and Troubleshooting Instruments Loss Length Testing
(Tier 1 Certification)
Inspection & Cleaning MPO Testing Plant Characterization & Troubleshooting
(Tier 2 Certification)
FI-500FiberInspector™
Mini FiberInspection Scope
FI-7000 FiberInspetor™ Pro Video Microscope
Fiber Optic Cleaning Kits
SimpliFiber Pro Power Meter & Fiber Test Kits
CertiFiber Pro Optical Loss
Test Set
MultiFiber Pro
MPO TesterVisiFault VisualFault Locator
Fiber OneShot™ PRO and Fiber QuickMap™
OptiFiber ProOTDR
Check end-face contamination or damage
End-face inspection grading
Port Illumination
Auto-focus
Clean contamination
Check connectivity
Check polarity Verify loss over entire link to ensure loss budget not exceeded
Dual-fiber loss testing Singlemode Tier 1 certification
Multimode Encircled Flux Compliant Tier 1 Certification
with EF TRC’s EF compliant at the bulkhead
Locate faults
Tier 2 certification
Pass/fail results
Document test results
Fiber types supportedMultimode
SinglemodeMultimode
Singlemode, MPOMultimode
Singlemode, MPOMultimode
SinglemodeMultimode
Singlemode
MPO(Multimode & Singlemode)
Multimode Singlemode
Multimode Singlemode
MultimodeSinglemode
Source type LED, FP Laser LED, FP Laser LED, FP Laser Laser Laser LED, FP Laser
Fluke Networks Fiber Test and Troubleshooting Instruments Loss Length Testing
(Tier 1 Certification)
P.O. Box 777, Everett, WA USA 98206-0777
Fluke Networks operates in more than 50 countries worldwide. To find your local office contact details, go to www.flukenetworks.com/contact.
©2016 Fluke Corporation. All rights reserved. 8/2016 3790462E
Ensure the fiber-based network goes up and stays up!
Visit www.flukenetworks.com/FiberBP for additional resources to help you establish Fiber Testing Best Practices.